화학공학소재연구정보센터
Electrochimica Acta, Vol.238, 384-396, 2017
Simulations of Lithium-Magnetite Electrodes Incorporating Phase Change
The phase changes occurring in magnetite (Fe3O4) during lithiation and voltage recovery experiments are modeled using a model that simulates the electrochemical performance of a Fe3O4 electrode by coupling the lithium transport in the agglomerate and nano-crystal length-scales to thermodynamic and kinetic expressions. Phase changes are described using kinetic expressions based on the Avrami theory for nucleation and growth. Simulated results indicate that the slow, linear voltage change observed at long times during the voltage recovery experiments can be attributed to a slow phase change from alpha-LixFe(3)O(4) to beta-Li4Fe3O4. In addition, the long voltage plateau at similar to 1.2 V observed during lithiation of electrodes is attributed to conversion from alpha-LixFe(3)O(4) to gamma-(4 Li2O + 3 Fe). Simulations for the lithiation of 6 and 32 nm Fe3O4 suggest the rate of conversion to gamma-(4 Li2O + 3 Fe) decreases with decreasing crystal size. (C) 2017 Elsevier Ltd. All rights reserved.